Binding at molecule/gold transport interfaces. I. Geometry and bonding [Review]

Basch H.; Ratner MA.

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Binding at molecule/gold transport interfaces. I. Geometry and bonding [Review]

机译：在分子/金转运界面处结合。 I.几何和键合[Review]

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Density functional methods on cluster models are used to examine the nature of the geometry, bonding, and energetics involved in the formation of molecular thiol junctions at gold electrode interfaces. The two gold electrodes are modeled as four atom clusters, without geometric constraint. We observe that the geometry nearly always favors twofold coordination of the thiol to a nearly planar array of four gold atoms. There are four essential structural motifs, that seem to characterize these interactions for alkyne, alkane, xylyl, and benzene dithiols. Bonding interactions are relatively strong, and correspond to a polarized covalent interaction. Results are given for different charge and spin components on the molecular bridge. (C) 2003 American Institute of Physics. [References: 113]

机译：簇模型上的密度泛函方法用于检查金电极界面上分子硫醇键的形成所涉及的几何形状，键合和能量学性质。将两个金电极建模为四个原子簇，而没有几何约束。我们观察到，几何形状几乎总是有利于硫醇与四个金原子的近似平面阵列的双重配位。有四个基本的结构基序，似乎表征了炔烃，烷烃，二甲苯基和苯二硫醇的这些相互作用。键合相互作用相对较强，并且对应于极化的共价相互作用。给出了分子桥上不同电荷和自旋成分的结果。（C）2003美国物理研究所。 [参考：113]

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《The Journal of Chemical Physics》 |2003年第22期|共17页
作者
Basch H.; Ratner MA.;
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Self-assembled monolayers; Current-voltage characteristics; Molecular electronic devices; Negative differential resistance; Compact effective potentials; Density-functional theory; Exponent basis-sets; Single-molecule; Ab-initio; Au(111) surface;

机译：自组装单分子层;电流-电压特性;分子电子器件;负电阻;紧凑有效电势;密度泛函理论;指数基组;单分子;Ab-initio;Au（111）表面;

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Binding at molecule/gold transport interfaces. I. Geometry and bonding [Review]

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